[SnowOne 2024] Григорий Кошелев: Undertow — андер...что?

Transcript

1. Undertow Григорий Кошелев Контур SnowOne 2024, Новосибирск

2. План — Историческая справка — Архитектура Undertow — IO-intensive приложения

   — Undertow + XNIO — Производительность и оптимизации 2

3. Историческая справка 2009 3 наши дни

4. Историческая справка Undertow 1.0 — 10 февраля 2014 2009 4

   наши дни Undertow 1.0 — 10.02.2014

5. Историческая справка Undertow 1.0 — 10 февраля 2014 2009 5

   март 2013 наши дни Undertow 1.0 — 10.02.2014

6. Историческая справка WildFly 8.0 — 12 февраля 2014 2009 наши

   дни https://www.wildfly.org/news/2014/02/12/WildFly8-Final-Released/ 6 Undertow 1.0 — 10.02.2014 WildFly 8.0 — 12.02.2014

7. WildFly 8.0 Undertow, the new cutting-edge web server in WildFly

   8, is designed for maximum throughput and scalability, including environments with over a million connections. It supports non-blocking and blocking handlers, traditional and asynchronous servlets, and JSR-356 web socket handlers. It is highly customizable, with the ability for applications to implement nearly anything from dynamic request routing to custom protocols. It can also function as a very efficient, pure non-blocking reverse proxy, allowing WildFly to delegate to other web servers with minimal impact to running applications. This release adds numerous improvements including greater extensibility and enhanced security capabilities. https://www.wildfly.org/news/2014/02/12/WildFly8-Final-Released/ 7

8. WildFly 8.0 Undertow, the new cutting-edge web server in WildFly

   8, is designed for maximum throughput and scalability, including environments with over a million connections. It supports non-blocking and blocking handlers, traditional and asynchronous servlets, and JSR-356 web socket handlers. It is highly customizable, with the ability for applications to implement nearly anything from dynamic request routing to custom protocols. It can also function as a very efficient, pure non-blocking reverse proxy, allowing WildFly to delegate to other web servers with minimal impact to running applications. This release adds numerous improvements including greater extensibility and enhanced security capabilities. https://www.wildfly.org/news/2014/02/12/WildFly8-Final-Released/ 8

9. WildFly 8.0 Undertow, the new cutting-edge web server in WildFly

   8, is designed for maximum throughput and scalability, including environments with over a million connections. It supports non-blocking and blocking handlers, traditional and asynchronous servlets, and JSR-356 web socket handlers. It is highly customizable, with the ability for applications to implement nearly anything from dynamic request routing to custom protocols. It can also function as a very efficient, pure non-blocking reverse proxy, allowing WildFly to delegate to other web servers with minimal impact to running applications. This release adds numerous improvements including greater extensibility and enhanced security capabilities. https://www.wildfly.org/news/2014/02/12/WildFly8-Final-Released/ 9

10. WildFly 8.0 Undertow, the new cutting-edge web server in WildFly

    8, is designed for maximum throughput and scalability, including environments with over a million connections. It supports non-blocking and blocking handlers, traditional and asynchronous servlets, and JSR-356 web socket handlers. It is highly customizable, with the ability for applications to implement nearly anything from dynamic request routing to custom protocols. It can also function as a very efficient, pure non-blocking reverse proxy, allowing WildFly to delegate to other web servers with minimal impact to running applications. This release adds numerous improvements including greater extensibility and enhanced security capabilities. https://www.wildfly.org/news/2014/02/12/WildFly8-Final-Released/ 10

11. WildFly 8.0 Undertow, the new cutting-edge web server in WildFly

    8, is designed for maximum throughput and scalability, including environments with over a million connections. It supports non-blocking and blocking handlers, traditional and asynchronous servlets, and JSR-356 web socket handlers. It is highly customizable, with the ability for applications to implement nearly anything from dynamic request routing to custom protocols. It can also function as a very efficient, pure non-blocking reverse proxy, allowing WildFly to delegate to other web servers with minimal impact to running applications. This release adds numerous improvements including greater extensibility and enhanced security capabilities. https://www.wildfly.org/news/2014/02/12/WildFly8-Final-Released/ 11
12. None

13. Историческая справка WildFly 8.0 — 12 февраля 2014 2009 наши

    дни 13 Undertow 1.0 — 10.02.2014 WildFly 8.0 — 12.02.2014

14. Историческая справка Spring Boot 1.2.0 — 11 декабря 2014 Undertow

    1.0 — 10.02.2014 WildFly 8.0 — 12.02.2014 2009 наши дни https://spring.io/blog/2014/12/11/spring-boot-1-2-0-released/ 14 Spring Boot 1.2.0 — 11.12.2014

15. Историческая справка Vostok Hercules — апрель 2018 Undertow 1.0 —

    10.02.2014 WildFly 8.0 — 12.02.2014 апрель 2018 2009 наши дни https://github.com/vostok/hercules 15 Spring Boot 1.2.0 — 11.12.2014

16. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15 16

17. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15&hw=ph&test=plaintext 17

18. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15&hw=ph&test=plaintext 18

19. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15&hw=ph&test=plaintext 19

20. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15&hw=ph&test=plaintext 20

21. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15&hw=ph&test=plaintext 21

22. Rapidoid «Высокопроизводительное Java-приложение в сердце стриминговой архитектуры» Алексей Кирпичников, Контур

    java.ural.Meetup@1 https://www.youtube.com/watch?v=Birt7ctlLTM 22

23. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15&hw=ph&test=plaintext 23

24. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15&hw=ph&test=plaintext 24

25. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15&hw=ph&test=query 25

26. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15&hw=ph&test=query 26

27. Web Framework Benchmarks https://www.techempower.com/benchmarks/#section=data-r15&hw=ph&test=query 27

28. Независимое тестирование 1. Undertow 2. Jetty 3. Tomcat 28

29. Независимое тестирование 1. Undertow 2. Jetty 3. Tomcat 29

30. Историческая справка Vostok Hercules — апрель 2018 Undertow 1.0 —

    10.02.2014 WildFly 8.0 — 12.02.2014 апрель 2018 2009 наши дни 30 Spring Boot 1.2.0 — 11.12.2014

31. Историческая справка Анонс Undertow 3.0 — апрель 2019 Undertow 1.0

    — 10.02.2014 WildFly 8.0 — 12.02.2014 апрель 2018 2009 апрель 2019 наши дни https://undertow.io/blog/2019/04/15/Undertow-3.html 31 Spring Boot 1.2.0 — 11.12.2014

32. Историческая справка Анонс Undertow 3.0 — апрель 2019 * XNIO

    –> Netty https://undertow.io/blog/2019/04/15/Undertow-3.html 32 Undertow 1.0 — 10.02.2014 WildFly 8.0 — 12.02.2014 апрель 2018 2009 апрель 2019 наши дни Spring Boot 1.2.0 — 11.12.2014

33. Историческая справка Анонс Undertow 3.0 — апрель 2019 * XNIO

    –> Netty * Смена лидера проекта https://undertow.io/blog/2019/04/15/Undertow-3.html 33 Undertow 1.0 — 10.02.2014 WildFly 8.0 — 12.02.2014 апрель 2018 2009 апрель 2019 наши дни Spring Boot 1.2.0 — 11.12.2014

34. Историческая справка Анонс Undertow 3.0 — апрель 2019 * XNIO

    –> Netty * Смена лидера проекта https://undertow.io/blog/2019/04/15/Undertow-3.html 34 Undertow 1.0 — 10.02.2014 WildFly 8.0 — 12.02.2014 апрель 2018 2009 апрель 2019 наши дни Spring Boot 1.2.0 — 11.12.2014 Stuart Douglas -> Flavia Rainone

35. Историческая справка ??? 35 Undertow 1.0 — 10.02.2014 WildFly 8.0

    — 12.02.2014 апрель 2018 2009 март 2019 наши дни Spring Boot 1.2.0 — 11.12.2014

36. Историческая справка Supersonic Subatomic Java 36 Undertow 1.0 — 10.02.2014

    WildFly 8.0 — 12.02.2014 апрель 2018 2009 март 2019 наши дни Spring Boot 1.2.0 — 11.12.2014

37. Историческая справка Supersonic Subatomic Java — Quarkus Undertow 1.0 —

    10.02.2014 WildFly 8.0 — 12.02.2014 апрель 2018 2009 Quarkus — март 2019 наши дни https://developers.redhat.com/blog/2019/03/07/quarkus-next-generation-kubernetes-native-java-framework 37 Spring Boot 1.2.0 — 11.12.2014

38. https://github.com/undertow-io/undertow/tree/3.x 38

39. https://github.com/undertow-io/undertow/tree/3.x 39

40. Архитектура Undertow undertow-servlet Servlet 3.1+ undertow-websockets-jsr JSR-356 (Java API for

    websockets) undertow-core XNIO Java NIO EPoll (Linux) KQueue (Mac, BSD)

41. Архитектура Undertow undertow-servlet Servlet 3.1+ undertow-websockets-jsr JSR-356 (Java API for

    websockets) undertow-core XNIO Java NIO EPoll (Linux) KQueue (Mac, BSD)

42. Архитектура Undertow undertow-servlet Servlet 3.1+ undertow-websockets-jsr JSR-356 (Java API for

    websockets) undertow-core XNIO Java NIO EPoll (Linux) KQueue (Mac, BSD)

43. Архитектура Undertow undertow-servlet Servlet 3.1+ undertow-websockets-jsr JSR-356 (Java API for

    websockets) undertow-core XNIO Java NIO EPoll (Linux) KQueue (Mac, BSD)

44. Архитектура Undertow undertow-servlet Servlet 3.1+ undertow-websockets-jsr JSR-356 (Java API for

    websockets) undertow-core XNIO Java NIO EPoll (Linux) KQueue (Mac, BSD)

45. Архитектура Undertow undertow-servlet Servlet 3.1+ undertow-websockets-jsr JSR-356 (Java API for

    websockets) undertow-core XNIO Java NIO EPoll (Linux) KQueue (Mac, BSD)

46. Архитектура Undertow undertow-servlet Servlet 3.1+ undertow-websockets-jsr JSR-356 (Java API for

    websockets) undertow-core XNIO Java NIO EPoll (Linux) KQueue (Mac, BSD)

47. Архитектура Undertow undertow-servlet Servlet 3.1+ undertow-websockets-jsr JSR-356 (Java API for

    websockets) undertow-core XNIO Java NIO EPoll (Linux) KQueue (Mac, BSD)

48. Архитектура Undertow undertow-servlet Servlet 3.1+ undertow-websockets-jsr JSR-356 (Java API for

    websockets) undertow-core XNIO Java NIO EPoll (Linux) KQueue (Mac, BSD)

49. IO-intensive приложения 49

50. IO-intensive приложения Что это такое? 50

51. IO-intensive приложения Что это такое? — Много входящего трафика —

    Много исходящего трафика 51

52. IO-intensive приложения Что это такое? — Много входящего трафика —

    Много исходящего трафика Количество HTTP-запросов 52

53. IO-intensive приложения Что это такое? — Много входящего трафика —

    Много исходящего трафика Количество HTTP-запросов x размер запросов 53

54. IO-intensive приложения HTTP API HTTP API Kafka 54

55. IO-intensive приложения HTTP API HTTP API Kafka 55

56. IO-intensive приложения HTTP API HTTP API Kafka 56

57. IO-intensive приложения HTTP API HTTP API Kafka 57

58. IO-intensive приложения HTTP API HTTP API Kafka 58

59. IO-intensive приложения HTTP API HTTP API Kafka 59

60. IO-intensive приложения HTTP API HTTP API Kafka 60

61. IO-intensive приложения HTTP API HTTP API Kafka 61

62. IO-intensive приложения HTTP API HTTP API Kafka 62 «Интересные» места?

63. IO-intensive приложения HTTP API HTTP API Kafka 63 «Интересные» места?

    Эффективная работа с тысячами коннекций

64. IO-intensive приложения HTTP API HTTP API Kafka 64 «Интересные» места?

    Обработка медленных клиентов Эффективная работа с тысячами коннекций

65. IO-intensive приложения HTTP API HTTP API Kafka 65 «Интересные» места?

    Эффективная работа с тысячами коннекций Обработка медленных клиентов Снижение нагрузки на GC

66. IO-intensive приложения HTTP API HTTP API Kafka 66 «Интересные» места?

    Эффективная работа с тысячами коннекций Снижение нагрузки на GC Обработка медленных клиентов Эффективная отправка

67. Undertow + XNIO undertow-servlet Servlet 3.1+ undertow-websockets-jsr JSR-356 (Java API

    for websockets) undertow-core XNIO Java NIO EPoll (Linux) KQueue (Mac, BSD)

68. Undertow + XNIO Undertow server = Undertow.builder() .addHttpListener(8080, "localhost") .setHandler(Handlers.routing()

    .get("/hello/{any}", new MyHelloAnyHandler()) .post("/echo", new MyEchoHandler()) ).build(); server.start(); 68

69. Undertow + XNIO Undertow server = Undertow.builder() .addHttpListener(8080, "localhost") .setHandler(Handlers.routing()

    .get("/hello/{any}", new MyHelloAnyHandler()) .post("/echo", new MyEchoHandler()) ).build(); server.start(); 69

70. Undertow + XNIO Undertow server = Undertow.builder() .addHttpListener(8080, "localhost") .setHandler(Handlers.routing()

    .get("/hello/{any}", new MyHelloAnyHandler()) .post("/echo", new MyEchoHandler()) ).build(); server.start(); 70 1

71. Undertow + XNIO Undertow server = Undertow.builder() .addHttpListener(8080, "localhost") .setHandler(Handlers.routing()

    .get("/hello/{any}", new MyHelloAnyHandler()) .post("/echo", new MyEchoHandler()) ).build(); server.start(); 71 2 1

72. Undertow + XNIO Undertow server = Undertow.builder() .addHttpListener(8080, "localhost") .setHandler(Handlers.routing()

    .get("/hello/{any}", new MyHelloAnyHandler()) .post("/echo", new MyEchoHandler()) ).build(); server.start(); 72 1 2 3

73. Undertow + XNIO 73

74. Undertow + XNIO 74 java.nio.channels.spi. SelectorProvider

75. Undertow + XNIO 75 java.nio.channels.spi. SelectorProvider sun.nio.ch.EPollSelectorProvider

76. Undertow + XNIO 76 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread sun.nio.ch.EPollSelectorProvider

77. Undertow + XNIO 77 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread sun.nio.ch.EPollSelectorProvider openSelector()

78. Undertow + XNIO 78 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread sun.nio.ch.EPollSelectorProvider openSelector()

79. Undertow + XNIO 79 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() sun.nio.ch.EPollSelectorProvider openSelector()

80. Undertow + XNIO 80 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() sun.nio.ch.EPollSelectorProvider openSelector() openSelector()

81. Undertow + XNIO 81 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() sun.nio.ch.EPollSelectorProvider openSelector() openSelector() acceptQueue

82. Undertow + XNIO 82 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() java.nio.channels. ServerSocketChannel sun.nio.ch.EPollSelectorProvider openSelector() openSelector() acceptQueue

83. Undertow + XNIO 83 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() java.nio.channels. ServerSocketChannel sun.nio.ch.EPollSelectorProvider openSelector() openSelector() open() acceptQueue

84. Undertow + XNIO 84 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() java.nio.channels. ServerSocketChannel java.net. InetSocketAddress sun.nio.ch.EPollSelectorProvider openSelector() openSelector() open() acceptQueue

85. Undertow + XNIO 85 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() java.nio.channels. ServerSocketChannel java.net. InetSocketAddress sun.nio.ch.EPollSelectorProvider openSelector() openSelector() socket().bind() open() acceptQueue

86. Undertow + XNIO 86 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() java.nio.channels. ServerSocketChannel java.net. InetSocketAddress sun.nio.ch.EPollSelectorProvider openSelector() openSelector() registerChannel() socket().bind() open() acceptQueue

87. Undertow + XNIO 87 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() java.nio.channels. ServerSocketChannel java.net. InetSocketAddress sun.nio.ch.EPollSelectorProvider openSelector() openSelector() registerChannel() socket().bind() open() acceptQueue SelectionKey

88. Undertow + XNIO 88 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() org.xnio.nio. NioTcpServerHandle java.nio.channels. ServerSocketChannel java.net. InetSocketAddress sun.nio.ch.EPollSelectorProvider openSelector() openSelector() registerChannel() socket().bind() open() acceptQueue SelectionKey

89. Undertow + XNIO 89 java.nio.channels.spi. SelectorProvider acceptThread org.xnio.nio.WorkerThread ioThreads []

    org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() org.xnio.nio. NioTcpServerHandle java.nio.channels. ServerSocketChannel java.net. InetSocketAddress sun.nio.ch.EPollSelectorProvider openSelector() openSelector() registerChannel() socket().bind() open() acceptQueue SelectionKey attach()

90. Виды потоков 90 acceptThread org.xnio.nio.WorkerThread ioThreads [] org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors()

91. Виды потоков 91 acceptThread org.xnio.nio.WorkerThread ioThreads [] org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() taskPool

    j.u.c.ScheduledExecutorService

92. Виды потоков 92 acceptThread org.xnio.nio.WorkerThread ioThreads [] org.xnio.nio.WorkerThread Runtime.getRuntime().availableProcessors() taskPool

    j.u.c.ScheduledExecutorService ioThreads * 8

93. Undertow + XNIO Undertow server = Undertow.builder() .addHttpListener(8080, "localhost") .setHandler(Handlers.routing()

    .get("/hello/{any}", new MyHelloAnyHandler()) .post("/echo", new MyEchoHandler()) ).build(); server.start(); 93 1 2 3

94. Undertow + XNIO Undertow server = Undertow.builder() .addHttpListener(8080, "localhost") .setHandler(Handlers.routing()

    .get("/hello/{any}", new MyHelloAnyHandler()) .post("/echo", new MyEchoHandler()) ).build(); server.start(); 94 1 2 3

95. Undertow + XNIO 95 acceptListener io.undertow.server.protocol.http. HttpOpenListener

96. Undertow + XNIO 96 acceptListener io.undertow.server.protocol.http. HttpOpenListener parser io.undertow.server.protocol.http. HttpRequestParser

97. Undertow + XNIO 97 acceptListener io.undertow.server.protocol.http. HttpOpenListener rootHandler io.undertow.server.HttpHandler parser

    io.undertow.server.protocol.http. HttpRequestParser

98. Обработка запроса acceptThread ioThread taskThread 98 java.nio.channels. SocketChannel

99. Обработка запроса acceptThread ioThread taskThread 99 ioThread java.nio.channels. SocketChannel

100. Обработка запроса acceptThread ioThread taskThread 100 ioThread java.nio.channels. SocketChannel registerChannel()

101. Обработка запроса acceptThread ioThread taskThread 101 connection org.xnio.nio. NioSocketStreamConnection ioThread

     java.nio.channels. SocketChannel registerChannel()

102. Обработка запроса acceptThread ioThread taskThread 102 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread java.nio.channels. SocketChannel registerChannel()

103. Обработка запроса acceptThread ioThread taskThread 103 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel()

104. Обработка запроса acceptThread ioThread taskThread 104 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel()

105. Обработка запроса acceptThread ioThread taskThread 105 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel() task

106. Обработка запроса acceptThread ioThread taskThread 106 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel() task

107. Обработка запроса acceptThread ioThread taskThread 107 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel() task acceptListener

108. Обработка запроса acceptThread ioThread taskThread 108 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel() task acceptListener io.undertow.server. protocol.http. HttpReadListener

109. Обработка запроса acceptThread ioThread taskThread 109 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel() task acceptListener io.undertow.server. protocol.http. HttpReadListener parser

110. Обработка запроса acceptThread ioThread taskThread 110 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel() task acceptListener io.undertow.server. protocol.http. HttpReadListener rootHandler parser

111. HttpHandler public interface HttpHandler { /** * Handle the request.

     * * @param exchange the HTTP request/response exchange * */ void handleRequest(HttpServerExchange exchange) throws Exception; } 111

112. HttpServerExchange 112

113. HttpServerExchange public HttpServerExchange dispatch( final Runnable runnable) { /* ...

     */ } public HttpServerExchange dispatch( final Executor executor, final Runnable runnable) { /* ... */ } 113

114. Обработка запроса acceptThread ioThread taskThread 114 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel() task acceptListener io.undertow.server. protocol.http. HttpReadListener rootHandler parser

115. HttpServerExchange public Receiver getRequestReceiver() { /* ... */ return new

     AsyncReceiverImpl(this); } public Sender getResponseSender() { /* ... */ return new AsyncSenderImpl(this); } 115

116. HttpServerExchange public Receiver getRequestReceiver() { /* ... */ return new

     AsyncReceiverImpl(this); } public Sender getResponseSender() { /* ... */ return new AsyncSenderImpl(this); } 116

117. AsyncReceiverImpl 117

118. AsyncReceiverImpl public void receiveFullBytes( final FullBytesCallback callback, final ErrorCallback errorCallback)

     { /* ... */ } public void receivePartialBytes( final PartialBytesCallback callback, final ErrorCallback errorCallback) { /* ... */ } 118

119. AsyncReceiverImpl public void receiveFullBytes( final FullBytesCallback callback, final ErrorCallback errorCallback)

     { /* ... */ } public void receivePartialBytes( final PartialBytesCallback callback, final ErrorCallback errorCallback) { /* ... */ } 119

120. AsyncReceiverImpl exchange.getRequestReceiver().receiveFullBytes( (ex, bytes) -> { /* ioThread */ /*

     bytes -> runnable */ ex.dispatch(runnable); }, (ex, exception) -> { ex.setStatusCode(StatusCodes.INTERNAL_SERVER_ERROR); ex.endExchange(); } ); 120

121. AsyncReceiverImpl exchange.getRequestReceiver().receiveFullBytes( (ex, bytes) -> { /* ioThread */ /*

     bytes -> runnable */ ex.dispatch(runnable); }, (ex, exception) -> { ex.setStatusCode(StatusCodes.INTERNAL_SERVER_ERROR); ex.endExchange(); } ); 121

122. AsyncReceiverImpl exchange.getRequestReceiver().receiveFullBytes( (ex, bytes) -> { /* ioThread */ /*

     bytes -> runnable */ ex.dispatch(runnable); }, (ex, exception) -> { ex.setStatusCode(StatusCodes.INTERNAL_SERVER_ERROR); ex.endExchange(); } ); 122

123. AsyncReceiverImpl exchange.getRequestReceiver().receiveFullBytes( (ex, bytes) -> { /* ioThread */ /*

     bytes -> runnable */ ex.dispatch(runnable); }, (ex, exception) -> { ex.setStatusCode(StatusCodes.INTERNAL_SERVER_ERROR); ex.endExchange(); } ); 123

124. Производительность и оптимизации HTTP API Kafka HTTP API 124 Эффективная

     работа с тысячами коннекций Снижение нагрузки на GC Обработка медленных клиентов Эффективная отправка

125. HttpServerExchange public Receiver getRequestReceiver() { /* ... */ return new

     AsyncReceiverImpl(this); } public Sender getResponseSender() { /* ... */ return new AsyncSenderImpl(this); } 125

126. AsyncSenderImpl 126

127. AsyncSenderImpl public void send( final ByteBuffer buffer, final IoCallback callback)

     { /* ... */ } public void send( final ByteBuffer[] buffer, final IoCallback callback) { /* ... */ } 127

128. AsyncSenderImpl public void send( final ByteBuffer buffer, final IoCallback callback)

     { /* ... */ } public void send( final ByteBuffer[] buffer, final IoCallback callback) { /* ... */ } 128

129. AsyncSenderImpl public void send( final ByteBuffer buffer, final IoCallback callback)

     { /* ... */ } public void send( final ByteBuffer[] buffer, final IoCallback callback) { /* ... */ } 129

130. AsyncSenderImpl.send() do { long res = channel.write(buffer); written += res;

     if (res == 0) { this.buffer = buffer; this.callback = callback; /* ... */ channel.getWriteSetter().set(writeListener); channel.resumeWrites(); return; } } while (written < total); 130

131. AsyncSenderImpl.send() do { long res = channel.write(buffer); written += res;

     if (res == 0) { this.buffer = buffer; this.callback = callback; /* ... */ channel.getWriteSetter().set(writeListener); channel.resumeWrites(); return; } } while (written < total); 131

132. AsyncSenderImpl.send() do { long res = channel.write(buffer); written += res;

     if (res == 0) { this.buffer = buffer; this.callback = callback; /* ... */ channel.getWriteSetter().set(writeListener); channel.resumeWrites(); return; } } while (written < total); 132

133. AsyncSenderImpl.send() do { long res = channel.write(buffer); written += res;

     if (res == 0) { this.buffer = buffer; this.callback = callback; /* ... */ channel.getWriteSetter().set(writeListener); channel.resumeWrites(); return; } } while (written < total); 133

134. AsyncSenderImpl.writeListener public void handleEvent(final StreamSinkChannel ch) { try { long

     toWrite = Buffers.remaining(buffer); long written = 0; while (written < toWrite) { long res = ch.write(buffer, 0, buffer.length); written += res; if (res == 0) { return; } } /* ... */ } catch (IOException e) { /* ... */ } } 134

135. AsyncSenderImpl.writeListener public void handleEvent(final StreamSinkChannel ch) { try { long

     toWrite = Buffers.remaining(buffer); long written = 0; while (written < toWrite) { long res = ch.write(buffer, 0, buffer.length); written += res; if (res == 0) { return; } } /* ... */ } catch (IOException e) { /* ... */ } } 135 ByteBuffer[]

136. AsyncSenderImpl.writeListener public void handleEvent(final StreamSinkChannel ch) { try { long

     toWrite = Buffers.remaining(buffer); long written = 0; while (written < toWrite) { long res = ch.write(buffer, 0, buffer.length); written += res; if (res == 0) { return; } } /* ... */ } catch (IOException e) { /* ... */ } } 136

137. AsyncSenderImpl.send() do { long res = channel.write(buffer); written += res;

     if (res == 0) { this.buffer = buffer; this.callback = callback; /* ... */ channel.getWriteSetter().set(writeListener); channel.resumeWrites(); return; } } while (written < total); 137

138. AsyncSenderImpl.send() do { long res = channel.write(buffer); written += res;

     if (res == 0) { this.buffer = buffer; this.callback = callback; /* ... */ channel.getWriteSetter().set(writeListener); channel.resumeWrites(); return; } } while (written < total); 138

139. Обработка запроса acceptThread ioThread taskThread 139 selectorWorkQueue task writeListener sun.nio.ch.

     SocketChannelImpl

140. Обработка запроса acceptThread ioThread taskThread 140 task writeListener sun.nio.ch. SocketChannelImpl

     selectorWorkQueue

141. Обработка запроса acceptThread ioThread taskThread 141 selectorWorkQueue writeListener sun.nio.ch. SocketChannelImpl

     task

142. Обработка запроса acceptThread ioThread taskThread 142 selectorWorkQueue task sun.nio.ch. SocketChannelImpl

     writeListener

143. Обработка запроса acceptThread ioThread taskThread 143 selectorWorkQueue task writeListener sun.nio.ch.

     SocketChannelImpl ...

144. Обработка запроса acceptThread ioThread taskThread 144 selectorWorkQueue task writeListener sun.nio.ch.

     SocketChannelImpl ...

145. Производительность и оптимизации 145 Эффективная работа с тысячами коннекций Снижение

     нагрузки на GC Обработка медленных клиентов Эффективная отправка HTTP API Kafka HTTP API

146. Производительность и оптимизации HTTP API Kafka HTTP API 146 Эффективная

     работа с тысячами коннекций Снижение нагрузки на GC Обработка медленных клиентов Эффективная отправка

147. sun.nio.ch.SocketChannelImpl public long write( ByteBuffer[] srcs, int offset, int length)

     { /* ... */ IOUtil.write(fd, srcs, offset, length, nd); /* ... */ } 147

148. sun.nio.ch.IOUtil if (!(buf instanceof DirectBuffer)) { ByteBuffer shadow = Util.getTemporaryDirectBuffer(rem);

     shadow.put(buf); shadow.flip(); /* ... */ buf = shadow; /* ... */ } 148

149. sun.nio.ch.IOUtil if (!(buf instanceof DirectBuffer)) { ByteBuffer shadow = Util.getTemporaryDirectBuffer(rem);

     shadow.put(buf); shadow.flip(); /* ... */ buf = shadow; /* ... */ } 149

150. sun.nio.ch.IOUtil if (!(buf instanceof DirectBuffer)) { ByteBuffer shadow = Util.getTemporaryDirectBuffer(rem);

     shadow.put(buf); shadow.flip(); /* ... */ buf = shadow; /* ... */ } 150

151. ru.kontur.vostok.hercules.util. ByteBufferPool 151

152. ru.kontur.vostok.hercules.util. ByteBufferPool exchange.getResponseSender().send( buffer, new io.undertow.io.IoCallback() { @Override public void

     onComplete( HttpServerExchange exchange, Sender sender) { ByteBufferPool.release(buffer); exchange.endExchange(); } /* ... */ }); 152

153. ru.kontur.vostok.hercules.util. ByteBufferPool exchange.getResponseSender().send( buffer, new io.undertow.io.IoCallback() { @Override public void

     onComplete( HttpServerExchange exchange, Sender sender) { ByteBufferPool.release(buffer); exchange.endExchange(); } /* ... */ }); 153

154. ru.kontur.vostok.hercules.util. ByteBufferPool exchange.getResponseSender().send( buffer, new io.undertow.io.IoCallback() { @Override public void

     onComplete( HttpServerExchange exchange, Sender sender) { ByteBufferPool.release(buffer); exchange.endExchange(); } /* ... */ }); 154

155. Производительность и оптимизации 155

156. Производительность и оптимизации 156 — HttpRequestParser — HttpString

157. io.undertow.server.protocol.http. HttpRequestParser public abstract class HttpRequestParser 157

158. io.undertow.server.protocol.http. HttpRequestParser public abstract class HttpRequestParser public class HttpRequestParser$$generated extends

     HttpRequestParser 158

159. io.undertow.server.protocol.http. HttpRequestParser 159

160. io.undertow.util.HttpString /** * An HTTP case-insensitive Latin-1 string. */ public

     final class HttpString implements Comparable<HttpString>, Serializable { private final byte[] bytes; private final transient int hashCode; /** * For well known header to make comparison fast */ private final int orderInt; private transient String string; /* ... */ 160

161. io.undertow.util.HttpString /** * An HTTP case-insensitive Latin-1 string. */ public

     final class HttpString implements Comparable<HttpString>, Serializable { private final byte[] bytes; private final transient int hashCode; /** * For well known header to make comparison fast */ private final int orderInt; private transient String string; /* ... */ 161

162. io.undertow.util.HttpString /** * An HTTP case-insensitive Latin-1 string. */ public

     final class HttpString implements Comparable<HttpString>, Serializable { private final byte[] bytes; private final transient int hashCode; /** * For well known header to make comparison fast */ private final int orderInt; private transient String string; /* ... */ 162

163. io.undertow.util.HttpString 0x41 A 0x42 B 0x43 C 0x44 D 0x45

     E 0x46 F ... 0x57 W 0x58 X 0x59 Y 0x5A Z 163

164. io.undertow.util.HttpString 0x41 A 0x61 a 0x42 B 0x62 b 0x43

     C 0x63 c 0x44 D 0x64 d 0x45 E 0x65 e 0x46 F 0x66 f ... 0x57 W 0x77 w 0x58 X 0x78 x 0x59 Y 0x79 y 0x5A Z 0x7A z 164

165. io.undertow.util.HttpString 0x41 A 0x61 a 0x42 B 0x62 b 0x43

     C 0x63 c 0x44 D 0x64 d 0x45 E 0x65 e 0x46 F 0x66 f ... 0x57 W 0x77 w 0x58 X 0x78 x 0x59 Y 0x79 y 0x5A Z 0x7A z 165 private static int higher(byte b) { return b & (b >= 'a' && b <= 'z' ? 0xDF : 0xFF); }

166. io.undertow.util.HttpString 0x41 A 0x61 a 0x42 B 0x62 b 0x43

     C 0x63 c 0x44 D 0x64 d 0x45 E 0x65 e 0x46 F 0x66 f ... 0x57 W 0x77 w 0x58 X 0x78 x 0x59 Y 0x79 y 0x5A Z 0x7A z 166 private static int higher(byte b) { return b & (b >= 'a' && b <= 'z' ? 0xDF : 0xFF); }

167. io.undertow.util.HttpString /** * An HTTP case-insensitive Latin-1 string. */ public

     final class HttpString implements Comparable<HttpString>, Serializable { private final byte[] bytes; private final transient int hashCode; /** * For well known header to make comparison fast */ private final int orderInt; private transient String string; /* ... */ 167

168. io.undertow.util.HttpString /** * An HTTP case-insensitive Latin-1 string. */ public

     final class HttpString implements Comparable<HttpString>, Serializable { private final byte[] bytes; private final transient int hashCode; /** * For well known header to make comparison fast */ private final int orderInt; private transient String string; /* ... */ 168

169. io.undertow.util.HttpString public static final HttpString ACCEPT = new HttpString(ACCEPT_STRING, 1);

     public static final HttpString ACCEPT_CHARSET = new HttpString(ACCEPT_CHARSET_STRING, 2); public static final HttpString ACCEPT_ENCODING = new HttpString(ACCEPT_ENCODING_STRING, 3); 169

170. io.undertow.util.HttpString public static final HttpString ACCEPT = new HttpString(ACCEPT_STRING, 1);

     public static final HttpString ACCEPT_CHARSET = new HttpString(ACCEPT_CHARSET_STRING, 2); public static final HttpString ACCEPT_ENCODING = new HttpString(ACCEPT_ENCODING_STRING, 3); 170 HttpString.orderInt

171. Коварный трединг 171

172. Коварный трединг acceptThread ioThread taskThread 172 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel() task acceptListener io.undertow.server. protocol.http. HttpReadListener rootHandler parser

173. Коварный трединг acceptThread ioThread taskThread 173 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel() task acceptListener io.undertow.server. protocol.http. HttpReadListener rootHandler parser

174. Коварный трединг acceptThread ioThread taskThread 174 connection org.xnio.nio. NioSocketStreamConnection acceptQueue

     ioThread selectorWorkQueue java.nio.channels. SocketChannel registerChannel() task acceptListener io.undertow.server. protocol.http. HttpReadListener rootHandler parser

175. Выводы 175

176. Выводы Kafka HTTP API HTTP API 176 Эффективная работа с

     тысячами коннекций Снижение нагрузки на GC Обработка медленных клиентов Эффективная отправка

177. Q/A Другие доклады и материалы: https://tg.me/chnl_GregoryKoshelev https://tg.me/chnl_GregoryKoshelev 177